Figure 4
Figure 4. CM expression results in reduced homeostatic erythroid differentiation in vivo. (A) Schematic of experimental design. Cbfb+/56M/Mx1-Cre/Rosa26mT/mG (CM) or control Mx1-Cre/Rosa26mT/mG (Ctrl) dual fluorescent reporter mice were injected with 7 doses of poly (I:C) to induce the expression of Cre. Contribution of CM-expressing cells (GFP+) in HSPC subsets were assessed 6 weeks after induction. (B) Representative FACS plots of GFP+ (CM-expressing) and dTomato+ (non-CM cells) in various phenotypic HSPC subsets. (C) Frequency (%) of GFP+ cells in each phenotypic compartment of CM (n = 7) or Ctrl mice (n = 9). Mean ± SEM is shown. (D) Frequencies of GFP+ LSK and myeloid/erythroid progenitor subsets within total CM (n = 6) or Ctrl (n = 6) BM. Mean ± SEM is shown. *P < .05; **P < .01; ***P < .001.

CM expression results in reduced homeostatic erythroid differentiation in vivo. (A) Schematic of experimental design. Cbfb+/56M/Mx1-Cre/Rosa26mT/mG (CM) or control Mx1-Cre/Rosa26mT/mG (Ctrl) dual fluorescent reporter mice were injected with 7 doses of poly (I:C) to induce the expression of Cre. Contribution of CM-expressing cells (GFP+) in HSPC subsets were assessed 6 weeks after induction. (B) Representative FACS plots of GFP+ (CM-expressing) and dTomato+ (non-CM cells) in various phenotypic HSPC subsets. (C) Frequency (%) of GFP+ cells in each phenotypic compartment of CM (n = 7) or Ctrl mice (n = 9). Mean ± SEM is shown. (D) Frequencies of GFP+ LSK and myeloid/erythroid progenitor subsets within total CM (n = 6) or Ctrl (n = 6) BM. Mean ± SEM is shown. *P < .05; **P < .01; ***P < .001.

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